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Neural bypass restores quadriplegic hand movement

For the first time ever, a paralyzed man can move his fingers and hand with his own thoughts. 

Ian Burkhart, a 23-year-old quadriplegic from Dublin, Ohio, is the first patient to use Neurobridge, an electronic neural bypass for spinal cord injuries that reconnects the brain directly to muscles, allowing voluntary and functional control of a paralyzed limb.

Burkhart is the first of a potential five participants in a clinical study made possible through an innovative partnership between The Ohio State University Wexner Medical Center and Battelle, a the world’s largest non-profit R&D organisation.

‘It’s much like a heart bypass, but instead of bypassing blood, we’re actually bypassing electrical signals,’ said Chad Bouton, research leader at Battelle. ‘We’re taking those signals from the brain, going around the injury, and actually going directly to the muscles.’

 

Source: OSU Medical Centre

A man in Ohio has become the first patient ever to move his paralyzed hand by using his thoughts

The Neurobridge technology combines algorithms that learn and decode the user’s brain activity and a high-definition muscle stimulation sleeve that translates neural impulses from the brain and transmits new signals to the paralyzed limb. In this case, Ian’s brain signals bypass his injured spinal cord and move his hand, hence the name Neurobridge.

Working on the project for nearly a decade to develop the algorithms, software and stimulation sleeve, Battelle scientists first recorded neural impulses from an electrode array implanted in a paralyzed person’s brain. They used that data to illustrate the device’s effect on the patient and prove the concept.

Two years ago, Bouton and his team began collaborating with Ohio State neuroscience researchers and clinicians Dr. Ali Rezai and Dr. Jerry Mysiwto design the clinical trials and validate the feasibility of using the Neurobridge technology in patients.

During a three-hour surgery on April 22, Rezai implanted a small chip onto the motor cortex of Burkhart’s brain. The chip interprets brain signals and sends them to a computer, which recodes and sends them to the high-definition electrode stimulation sleeve that stimulates the proper muscles to execute his desired movements. Within a tenth of a second, Burkhart’s thoughts are translated into action.

‘The surgery required the precise implantation of the micro-chip sensor in the area of Ian’s brain that controls his arm and hand movements,’ Rezai said in a statement. 

He said this technology may one day help patients affected by various brain and spinal cord injuries such as strokes and traumatic brain injury.

Battelle also developed a non-invasive neurostimulation technology in the form of a wearable sleeve that allows for precise activation of small muscle segments in the arm to enable individual finger movement, along with software that forms a ‘virtual spinal cord’ to allow for coordination of dynamic hand and wrist movements.

The Ohio State and Battelle teams worked together to ascertain the correct sequence of electrodes to stimulate to allow Burkhart to move his fingers and hand functionally. For example, Burkhart uses different brain signals and muscles to rotate his hand, make a fist or pinch his fingers together to grasp an object, Mysiw said.

As part of the study, Burkhart worked for months using the electrode sleeve to stimulate his forearm to rebuild his atrophied muscles so they would be more responsive to the electric stimulation.


Readers' comments (1)

  • Great work. Laudable.
    Best wishes to team to take on further with external means inlieu of implants.

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